U!A DIVISION OF AGRICULTURE RESEARCH & EXTENSION University of Arkansas System Agriculture and Natural Resources Bahiagrass and Dallisgrass or Forage FSA3144 John A. Jennings Professor - Extension Forages Arkansas Is Our Ca pus Visit our web site at: http://www.uaex.edu Bahiagrass Bahiagrass (Paspalum notatum) is a warm-season, sod-forming, perennial grass that spreads by seed and short, stubby rhizomes. Bahiagrass is native to South America and was accidently introduced into the United States in the late 1930s and has since spread throughout the southeast U.S. It is less cold tolerant than bermudagrass and is commonly found in Arkansas from I-40 southward. However, some scattered fields of a cold-tolerant variety exist in north Arkansas (see varieties section). Bahiagrass is grown primarily for pasture, but it may also be used for hay. It is very drought tolerant and can survive well on dry, rocky, shallow sites where even bermudagrass grows poorly. Bahiagrass is easy to maintain because it is tolerant of close grazing, low fertility and is generally free from diseases or insect pests. Weed invasion tends to be lower in bahiagrass compared to bermudagrass due to its extremely dense sod. It is also more shade tolerant than bermudagrass. -.,, y ~,,,.--.. <:-_. ~ ~- /. ' '" ;,_ \_ ' ' ' '', '. \ '\' \ -,;,. \.. /.- -.._,-,,_ 1 :,. Jv:. \... :,,:,~~,1-,. \, ',,,._, WIii. \ \ l. _,... \_',,....,. ', h ' 'I, f. 1' I -, '. "'< ',\., ii\,\{.,j''. :,': ::: A!' J, ~. ;,t,j~.\ _f& t' ~~jl.r 1,, \ I ~ f. J 'I ~ l,jz a, ' ' ' t, \, ',!j 1!.' '..; 1 ~-!;/ ;h i...,. Figure 1. Bahiagrass seedheads have a two-fingered or forked appearance. Figure 2. Bahiagrass leaves tend to be long and narrow and concentrated near the soil surface. Leaves do not grow up on the seedstalk. Figure. Bahiagrass spreads by short J shaped rhizomes that form a thick sod. Hayqualityandyieldaregenerally lowerthanforotherforagegrassesat similarlevelsofforagematurity.how- ever,itdoesrespondwelltoimproved grazingandfertilitymanagement. Grazinglivestockmayspreadviable seedinmanurewhichcaneasilyallow bahiagrasstobecomeaweedinother pastureswhereitmaynotbewanted. Varieties Several varieties are available, but only those that may be adapted to regions of Arkansas are listed here. University of Arkansas, United States Department of Agriculture, and ounty Governments ooperating
Pensacola bahiagrass was introduced into the United States from South America in the late 1930s, probably in ballast discarded from ships visiting the port at Pensacola, Florida. E. H. Finlayson, a county Extension agent, found this cultivar growing in vacant lots near Pensa cola s docks. It is the most widely grown variety in the southeast United States and Arkansas. It has long, narrow leaves and tall seed stalks. It is more winter hardy than the common and Argentine varieties. Growth begins early in spring and continues until mid-summer when the seedheads mature. Late summer growth is slow and low quality. Pensacola is fairly resistant to ergot. Tifton-9 was a selection from Pensacola released in 1987 by the Georgia Coastal Plain Experiment Station. It is less tolerant of close grazing than Pensacola but has much greater seedling vigor. Tifton-9 has a more upright growth habit and does not develop a dense sod like other vari eties. It produces about 10 percent more forage than Pensacola. Due to its greater seedling vigor, it can be established with only 8 to 10 pounds of seed per acre if drilled. A higher seeding rate may result in quicker stand development. AU Sand Mountain was developed and released by Auburn University from plants found on the Sand Moun tain Research and Extension Center in northeast Alabama. This variety is more winter hardy than other cur rently available bahiagrass varieties. TifQuik, a variant of Tifton-9, is a newer variety that has superior seed ling vigor and quicker stand formation. The yield potential and other characteristics of TifQuik are essentially the same as Tifton-9. UF-Riata was developed and released by the University of Florida. This variety has a different photoperiod response than other varieties, which results in it having a longer growing season. It tends to grow later in the fall and earlier in spring. It has matched the yield of Tifton-9 and TifQuik in trials at Tifton, Georgia. Wilmington is the most cold-tolerant variety of bahiagrass. Although seed is no longer commercially available, it is noted here because several fields of Wilmington with good stands are scattered across north Arkansas in Boone, Baxter and Randolph counties. Reports are that those fields were planted in the early 1970s. Other varieties of bahiagrass do not persist that far north. Planting Methods Thebesttimetoplantbahiagrass isinspring, afterdangeroffrosthaspassed,untiljune1. Dormantplantingsmadeduringwinterareless preferredbecausestandshavehigherriskof weed invasionandtakelongertofillin.seedingratesvary with variety and planting method. When using Pensacola or a Pensacola-type variety, the seeding rate should be 12 to 15 pounds of seed per acre when the seed are drilled into a prepared seedbed. Whenbroadcastingseedontoapreparedseedbed orusingno-tillmethods,increasetheseedingrateof Pensacola-typevarietiesto18to20poundsperacre. Tifton-9andTifQuikhavemuchbetterseedlingvigor thanpensacola-typevarieties,allowinglowerseeding rates. Asaresult,theseedingrateforTifton-9and TifQuikis8to10 poundsperacreonprepared seedbedsand12to15 poundsperacrewhen broadcasting orplantingwithano-tilldrill. Bahiagrass can be drill or broadcast planted on a tilled, prepared seedbed or can be no-till drilled into a killed sod. Bahiagrass seed size is small, so planting depth should be no more than ½ inch. About 50 to 60 percent of seed germinate within 30 days after planting, but some may not germinate until the year after planting. TifQuik seed germinate faster, and most seed will germinate within 2 weeks after planting under favorable conditions. New seedings are often made for two typical scenarios on new cleared land and when renovating old, thin pastures. Land that has just been cleared of timber normally has low weed pressure and is often an ideal site for establishing bahiagrass. The site should be cleared of all stumps and timber slash to allow use of planting and harvesting equipment later. Such sites may need substantial applications of lime, phosphorus and potassium based on soil tests. Tillagewilllikelybeneededtoprepareahigh- qualityseedbed.old,thinpasturestendtosuppressa largeseedbankofvariousweeds.whentheoldsodis removedbysprayingortillage,thelatentseedbank eruptsintoaheavystandofaggressiveweeds (broadleaf andgrass)thatmayrequireayearormoreto properly control.toestablishanewforagesuccess- fully,youmustplanaheadtoproperlyaddress this problem. Themostreliablemethodofkillinganoldpasture sodistousethespray-smother-spray (SSS)method. TheSSSmethodinvolvessprayinganactively growingsodinspringwithanonselectiveherbicide (e.g.,glyphosate),thenplantingasummerannual forage (sorghum sudanorpearlmillet)thatservesas a smothercropwhileprovidingsummerforage.the summerannualforageprovidesheavyshadeand competitionforweeds,anditcanbeharvestedforhay orgrazed. It is best to harvest the last growth of the summer annual in September as hay to leave short, even stubble. Spray the stubble again to kill any remaining sod, weeds and summer annual plants. A small grain (wheat or rye) can be then no-tilled into
the sprayed sod for winter forage or the field can be left fallow until spring. Spray to kill the sod or winter annual after grazing in spring. Bahiagrass can be then drilled into the killed small grain stubble or on a prepared tilled seedbed. Fertility Management Sincebahiagrassisawarm-seasongrass, fertilizationshouldbetimedtooccurjustbefore activegrowthbeginsinmid-spring.thistypicallyis whennighttemperaturesarenear60 Fforabouta weekandoftenoccursaroundearlymay.applying fertilizerbeforetemperatureshavewarmedwill resultinmoreweedcompetitionandlowerfertilizer efficiency.whensubmittingsoilsamplesforplanting bahiagrassandforhayorpastureproduction,askfor recommendationsforwarm-seasongrasses. Bahiagrass has lower yield potential than bermudagrass, so hay production recommendations should be for no more than 2 or 4 tons of hay per acre. Fertilizer applications can be split according to the harvest schedule. If only two harvests will be made for the year, apply half the total fertilizer recommendation for each cutting. Apply one-third of the total recommendation for each cutting if three harvests are planned. Sincebahiagrasstolerateslow fertility and management, producersoftenneglectproper fer- tilizationinhayfields.bahiagrassrespondsto fertilizerapplication,especiallyifsoilpotassiumis low. Lowpotassiumfertilizationleadsto thinstands andlowhay productivity. Grazing Bahiagrass makes good summer pasture for most classes of livestock. Forage quality is best in early summer and declines in late summer. Bahiagrass grass grows from late spring through September and stops growth in fall when night temperatures drop into the low 50s. Bahiagrassproducesmostofitsforagecloseto thesoilsurface.itisestimatedthat60percentofthe totalyieldisproducedwithin2 inchesofthesoil surface.becausetheleafyportionislow-growing,the forageshouldgenerallybegrazedshortforbest utilizationandanimalperformance.bahiagrasswill tolerateclose,continuousgrazing,althoughit respondswelltorotationalgrazingmanagement. Stockpiling for Fall Grazing ThelastgrowthoftheyearfromlateAugust throughearlyoctobercanbestockpiledforgrazing startinginlateoctoberthroughdecember,whichis wellafternormalgrowthhasstoppedfortheyear. Stockpilingisbasicallythesamemanagementas wouldbeusedforproducinga lasthaycuttingofthe year, but the livestock are used to harvest it instead of investing extra harvest expense in hay which would be fed back to the livestock during November and December anyway. Demonstrationresultsshowedstockpiled bahiagrass forageyieldsof2,000to2,500poundsof drymatterperacre.tostockpilebahiagrass, clipor grazethepasture (orhayfield)toa1-to2-inch stubble bymid-augustandapply50-60poundsof nitrogenfertilizerperacreinmid-august (applyp and Kasdirectedbysoiltest).Allowthegrassto growuntil October.Grazingcanbeginin October and cancontinueuntil the forageisconsumedor throughdecember. Some producers in south Arkansas have found that waiting until early September to begin stockpiling bahiagrass produces a more vegetative forage that is consumed more readily by livestock although yield is lower than if the stockpile process were started earlier. Arkansas Exten sion farm demonstrations showed an average savings of $20 per animal unit by grazing stockpiled forage instead of feeding hay. Grazing stockpiled forage also saves substantial time compared to harvesting and feeding hay. Demonstration and survey results showed a time savings of 110 hours for stockpiling a 40-acre pasture for fall grazing compared to harvesting the field for hay and feeding in the late fall. ay arvest Bahiagrass will produce an acceptable hay crop, but yield is lower than for bermudagrass. In a 6-year variety trial at the Southwest Research and Extension Center at Hope, Pensacola bahiagrass produced an average 87 percent of the yield produced by common bermudagrass and only 57 percent of the yield by the hybrid Tifton 44 bermudagrass. Forage quality of bahiagrass hay is usually lower than for bermudagrass and other forages, but if well managed, it can be of good quality that matches nutri- tional needs of several classes of livestock. Bahiagrass hay quality in an Arkansas Beef Improvement demon- stration in Dallas County averaged 10.4 percent crude protein and 59.7 percent TDN over three cuttings under well-managed hay production. Hay should be harvested when the leafy portion of the forage reaches 10 to 12 inches tall. Subsequent harvests can be made on a 30- to 35-day interval to maintain highest forage quality. Overseeding Winter Forages into Bahiagrass Winterannualforagessuchassmallgrainor ryegrassmaybeautumnseededintobahiagrass stands.a commonprocedureusedistomoworgraze thebahiagrasstoatleasta2-inchstubbleheightin mid-september,diskthebahiagrassstandlightly,
broadcast seed and fertilizer, then harrow or drag the field to cover the seed. Or the winter annual forage can be no-till drilled into the short sod during October when bahiagrass is becoming dormant and noncompetitive. The winter annual forage should be fertilized at establishment if fall grazing is desired. Additional fertilizer can be applied in February for spring grazing of the winter annual forage. Dallisgrass Dallisgrass (Paspalum d latatum) is a fastgrowing perennial warm-season grass used primarily for pasture. It has wide, smooth leaves and a deep root system. It is found statewide and typically grows in low-lying moist soils. It is especially well adapted in the south half of Arkansas. Forage quality and palatability are very good for most grazing livestock. Livestock will graze it very closely unless rotational grazing is used. Hay yield of dallisgrass is similar to common bahiagrass. In a 6-year variety trial at the Southwest Research and Extension Center at Hope, common dallisgrass yielded 80 percent of the yield for Pensacola bahiagrass. It is very competitive in wet soils and tends to invade bermudagrass or other forages growing in those sites. Dallisgrass is often considered a contaminant or weed in bermudgrass grown for horse hay because it often turns a dark brown color when baled, resulting in poor eye appeal of the hay. Planting Methods Seedingratesandplantingmethodsaresimilar tobahiagrass,exceptdallisgrassisnotwelladapted todroughtysiteslike bahiagrass. Typicallydallis- grasswouldbeplantedonsitesconsideredtoowet forothercommonforages. Dallisgrasscan bedrillorbroadcastplantedona tilled,preparedseedbedorcanbeno-tilldrilledinto akilledsod.seedsize issmallsoplantingdepth shouldbenomorethan½inch.recommended plantingtimeisinspring,afterdangeroffrosthas passed,untiljune 1.Theseedingrateshouldbe12 to15poundsofseedperacrewhentheseedare drilledintoapreparedseedbedor18to20pounds peracrewhenbroadcastplanting. ErgotPoisoningandDallisgrassStaggers Ergot infection in dallisgrass seedheads is a cause for concern and requires attention under certain cir- cumstances. Ergot infection occurs every year to some degree in Arkansas, especially following summer rainy periods. Prevalence of ergot contamination is the primary reason dallisgrass seed is not commercially produced in the U.S. Figure 4. Dallisgrass has wide, drooping leaves which tend to crowd out bermudagrass in wet soils. Ergot poisoning in dallisgrass can cause a syndrome or toxicosis called dallisgrass staggers when animals consume infected seedheads. The ergot fungus, named Clav ceps paspal, infects the flowers of dallisgrass, and the growing fungus replaces the seed. The fungus only affects seedheads the other parts of the plant are nontoxic. Insummer,infecteddallisgrass seedheadsare oftencoveredina honeydew exudatefromthe fungusthatleavesastickyfilmonhandsand clothingafterwalkingthroughfields (Figure6). As thefungusdevelopsintheseedhead,harddark or orangecoloredsclerotiadevelopfromlate summer to fall (Figure7).Thesclerotiaserveasthe overwintering structureanddroptothesoilinlate fall.whenweatherwarmsthefollowingsummer,the sclerotiagerminateandproducesporeswhichinfect dallisgrassseedheadsduringthebloomingperiod. Figure 5. Dallisgrass is very palatable and is grazed closely by livestock in continuous grazing management. The most common scenario of ergot poisoning occurs when cattle that have not been exposed to dallisgrass are brought onto a farm and are turned
into a field that is at the full seedhead stage and infected with ergot. Cattle have the tendency to selectively graze seedheads, which leads to a very high dosage of ergot alkaloids. Even on farms where cattle are previously exposed to dallisgrass, poisoning can occur when animals are hungry and are turned into a field full of seedheads. Symptoms are much less common in herds with long-term exposure to dallisgrass in mixed grass pastures. Figure 6. Honeydew on dallisgrass seedhead infected with ergot. Figures 7. Dallisgrass seedhead infected with ergot. Sclerotia from the ergot fungus turns dark or orange in seedheads in late summer/fall. Visual symptoms associated with dallisgrass staggers involve the animal s nervous system. In the very early stages of toxicosis, the only sign seen may be trembling of various muscles after exercise. As toxicity progresses, muscle tremors worsen so that the animal becomes uncoordinated and may show continuous shaking of the limbs and nodding of the head. When forced to move, the severely affected animal may stagger, walk sideways and display a goosestepping gait. Uncoordination can be severe enough that the animal will fall down when attempt- ing to walk. Some animals may be found down and unable to stand. Diarrhea may be noted in some affected animals. Death can occur in severe cases. There is no cure for ergot poisoning, but removing animals from infected pastures when symptoms are first noticed usually results in recovery in 3 to 5 days. Mowing or shredding stems with a brushhog helps to prevent animals from selectively grazing seedheads. Ergot toxicity from dallisgrass hay is uncommon, probably because the total intake of leaves and stems in hay dilutes ergot content in the diet.
Printed by University of Arkansas Cooperative Extension Service Printing Services. JO N A. JENNINGS, PhD, isprofessor-extensionforageswiththe IssuedinfurtheranceofCooperativeExtensionwork,ActsofMay8and Department of Animal Science, University of Arkansas System June30,1914,incooperationwiththeU.S.DepartmentofAgriculture, Division of Agriculture, Little Rock. Director,CooperativeExtensionService,UniversityofArkansas.The University ofarkansassystemdivisionofagricultureoffersallits Extension andresearchprogramsandserviceswithoutregardtorace, color,sex,genderidentity,sexualorientation,nationalorigin,religion, age,disability,maritalorveteranstatus,geneticinformation,orany otherlegallyprotectedstatus,andisanaffirmativeaction Equal FSA3144-PD-10-2017N Opportunity Employer.